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      Multilayer mXene heterostructures and nanohybrids for multifunctional applications: a review

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      Author(s)
      Tasnim Mahmud, S.
      Bain, S
      Hasan, Md Mehdi
      Rahman, S.T.
      Rhaman, M.
      Hossain, M.M.
      Ordu, Mustafa
      Date
      2022-05-17
      Source Title
      ACS Materials Letters
      Electronic ISSN
      2639-4979
      Publisher
      American Chemical Society
      Volume
      4
      Issue
      6
      Pages
      1174 - 1206
      Language
      English
      Type
      Article
      Item Usage Stats
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      Abstract
      MXenes (transition metal carbides and nitrides) have experienced exponential growth over the last two decades, thanks to their excellent physical, chemical, and mechanical properties. Intriguing properties like high conductivity, wear, and corrosion resistance while maintaining flexibility are the strong motivation behind the exploration of MXenes. Moreover, the large surface area and unique layered structure enhance the functionality of multilayer-MXene heterostructures and hybrids. This paper reviews the synthesis chemistry, structure properties of multilayer MXenes, and their multifunctional applications. MXene synthesis under different conditions, their hybrids and composites, intercalation, and structural geometries are discussed. The electrical, mechanical, optical, and magnetic properties of MXenes are briefly presented. Recent progress and development in MXene-based heterostructures and nanohybrids for supercapacitors, batteries, environmental and water treatment, antibacterial and tissue engineering, and electromagnetic absorption and shielding are systematically discussed. Finally, research challenges and a perspective in this specified area are addressed for potential developments.
      Keywords
      Chemical structure
      Etching
      Heterostructure
      Thin films
      Two dimensional materials
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      http://hdl.handle.net/11693/111321
      Published Version (Please cite this version)
      Publication Date:May 17, 2022 https://doi.org/10.1021/acsmaterialslett.2c00175
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      • Institute of Materials Science and Nanotechnology (UNAM) 2258
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